Preparation of a three-dimensional porous PbO2-CNTs composite electrode and study of the degradation behavior of p-nitrophenol

Preparation of a three-dimensional porous PbO2-CNTs composite electrode and study of the degradation behavior of p-nitrophenol

[Display omitted] •A new porous PbO2-CNTs electrode was prepared by oxygen bubble template method.•Porous PbO2-CNTs electrode has high electrocatalytic activity and stability.•P-nitrophenol was removed from water by porous PbO2-CNTs electrode.•The electrochemical degradation intermediates and pathwa...

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Veröffentlicht in:Separation and purification technology 2021-12, Vol.276, p.119406, Article 119406
Hauptverfasser: You, Hongjun, Chen, Zhen, Yu, Qiang, Zhu, Wei, Chen, Bangyao, Lv, Ze, Hu, Qi, Liu, Yuanyuan, Zheng, Zhaoyi, Li, Shuting, Yeasmin, Farhana
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3D-PbO2-CNTs composite electrode
Electrocatalytic oxidation method
Engineering
Engineering, Chemical
Oxygen bubble template method
P-nitrophenol
Science & Technology
Technology
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container_start_page 119406
container_title Separation and purification technology
container_volume 276
creator You, Hongjun
Chen, Zhen
Yu, Qiang
Zhu, Wei
Chen, Bangyao
Lv, Ze
Hu, Qi
Liu, Yuanyuan
Zheng, Zhaoyi
Li, Shuting
Yeasmin, Farhana
description [Display omitted] •A new porous PbO2-CNTs electrode was prepared by oxygen bubble template method.•Porous PbO2-CNTs electrode has high electrocatalytic activity and stability.•P-nitrophenol was removed from water by porous PbO2-CNTs electrode.•The electrochemical degradation intermediates and pathway of p-nitrophenol were proposed. In this study, a new type of porous PbO2-CNTs electrode was prepared by the oxygen bubble template method to remove the organic pollutant p-nitrophenol in water. The electrode microscopic morphology, phase composition and element composition were characterized by physical methods such as scanning electron microscopy (SEM), X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS). According to linear scanning voltammetry (LSV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), the 3D-PbO2-CNTs composite electrode shows a higher exchange current density, larger electrochemically active surface area and smaller charge transfer resistance than the 3D-PbO2 and flat-PbO2-CNT electrodes. The 3D-PbO2-CNTs composite electrode was applied to the degradation of p-nitrophenol, and the results indicate that it has the strongest ability to generate hydroxyl radicals and the best electrocatalytic degradation efficiency. The degradation process follows pseudo-first-order reaction kinetics, and the intermediate products were characterized using GC–MS and a degradation mechanism for p-nitrophenol was proposed. From measurements of the cell voltage for degrading simulated phenolic wastewater, it was found that the battery voltage for the 3D-PbO2-CNTs composite electrode is 3.52 V, which is lower than that obtained for the 3D-PbO2 (3.59 V) and flat-PbO2-CNTs (3.85 V) electrodes, indicating that the anode material is effective in reducing energy consumption. In general, the new 3D-PbO2-CNTs electrode has good application prospects in the field of degrading organic polluted wastewater.
doi_str_mv 10.1016/j.seppur.2021.119406
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In this study, a new type of porous PbO2-CNTs electrode was prepared by the oxygen bubble template method to remove the organic pollutant p-nitrophenol in water. The electrode microscopic morphology, phase composition and element composition were characterized by physical methods such as scanning electron microscopy (SEM), X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS). According to linear scanning voltammetry (LSV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), the 3D-PbO2-CNTs composite electrode shows a higher exchange current density, larger electrochemically active surface area and smaller charge transfer resistance than the 3D-PbO2 and flat-PbO2-CNT electrodes. The 3D-PbO2-CNTs composite electrode was applied to the degradation of p-nitrophenol, and the results indicate that it has the strongest ability to generate hydroxyl radicals and the best electrocatalytic degradation efficiency. The degradation process follows pseudo-first-order reaction kinetics, and the intermediate products were characterized using GC–MS and a degradation mechanism for p-nitrophenol was proposed. From measurements of the cell voltage for degrading simulated phenolic wastewater, it was found that the battery voltage for the 3D-PbO2-CNTs composite electrode is 3.52 V, which is lower than that obtained for the 3D-PbO2 (3.59 V) and flat-PbO2-CNTs (3.85 V) electrodes, indicating that the anode material is effective in reducing energy consumption. 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In this study, a new type of porous PbO2-CNTs electrode was prepared by the oxygen bubble template method to remove the organic pollutant p-nitrophenol in water. The electrode microscopic morphology, phase composition and element composition were characterized by physical methods such as scanning electron microscopy (SEM), X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS). According to linear scanning voltammetry (LSV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), the 3D-PbO2-CNTs composite electrode shows a higher exchange current density, larger electrochemically active surface area and smaller charge transfer resistance than the 3D-PbO2 and flat-PbO2-CNT electrodes. The 3D-PbO2-CNTs composite electrode was applied to the degradation of p-nitrophenol, and the results indicate that it has the strongest ability to generate hydroxyl radicals and the best electrocatalytic degradation efficiency. The degradation process follows pseudo-first-order reaction kinetics, and the intermediate products were characterized using GC–MS and a degradation mechanism for p-nitrophenol was proposed. From measurements of the cell voltage for degrading simulated phenolic wastewater, it was found that the battery voltage for the 3D-PbO2-CNTs composite electrode is 3.52 V, which is lower than that obtained for the 3D-PbO2 (3.59 V) and flat-PbO2-CNTs (3.85 V) electrodes, indicating that the anode material is effective in reducing energy consumption. 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In this study, a new type of porous PbO2-CNTs electrode was prepared by the oxygen bubble template method to remove the organic pollutant p-nitrophenol in water. The electrode microscopic morphology, phase composition and element composition were characterized by physical methods such as scanning electron microscopy (SEM), X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS). According to linear scanning voltammetry (LSV), cyclic voltammetry (CV), and electrochemical impedance spectroscopy (EIS), the 3D-PbO2-CNTs composite electrode shows a higher exchange current density, larger electrochemically active surface area and smaller charge transfer resistance than the 3D-PbO2 and flat-PbO2-CNT electrodes. The 3D-PbO2-CNTs composite electrode was applied to the degradation of p-nitrophenol, and the results indicate that it has the strongest ability to generate hydroxyl radicals and the best electrocatalytic degradation efficiency. The degradation process follows pseudo-first-order reaction kinetics, and the intermediate products were characterized using GC–MS and a degradation mechanism for p-nitrophenol was proposed. From measurements of the cell voltage for degrading simulated phenolic wastewater, it was found that the battery voltage for the 3D-PbO2-CNTs composite electrode is 3.52 V, which is lower than that obtained for the 3D-PbO2 (3.59 V) and flat-PbO2-CNTs (3.85 V) electrodes, indicating that the anode material is effective in reducing energy consumption. In general, the new 3D-PbO2-CNTs electrode has good application prospects in the field of degrading organic polluted wastewater.</abstract><cop>AMSTERDAM</cop><pub>Elsevier B.V</pub><doi>10.1016/j.seppur.2021.119406</doi><tpages>11</tpages></addata></record>
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subjects 3D-PbO2-CNTs composite electrode
Electrocatalytic oxidation method
Engineering
Engineering, Chemical
Oxygen bubble template method
P-nitrophenol
Science & Technology
Technology
title Preparation of a three-dimensional porous PbO2-CNTs composite electrode and study of the degradation behavior of p-nitrophenol
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